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Therapy for Triple Negative Breast Cancer

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Principal Investigator



Biological Regulation

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A novel therapy for Triple Negative Breast Cancer (TNBC) using mAbs combination
Breast cancer is the most common cancer in women worldwide. Triple-negative breast cancer (TNBC) representing about 15% of all breast cancer cases, is the deadliest form of all breast cancer subtypes, and tends to affect women at a younger age. Unfortunately TNBC cannot be treated with the common receptor targeted therapies since it does not express these targets, the estrogen, progesterone and Her2/neu receptors. Therefor systemic treatment options are currently limited to cytotoxic chemotherapy. The lack of effective targeted therapies, resistance to chemotherapy, and early metastatic spread have contributed to the poor prognoses and outcomes associated with TNBC.
The current technology offers a novel therapeutic strategy for TNBC. The application of two novel, noncompetitive antibodies against EGFR, achieves a robust degradation EGFR resulting in tumor inhibition.


  • Novel and unique antibody targeted therapy for TNBC.
  • The novel anti EGFR antibodies can cooperate synergistically with the currently marketed EGFR antibodies.


  • A promising therapeutic scenario to treat TNBC.
  • Enhanced EGFR degradation and improved anti-tumor activity, in contrast to clinically approved anti-EGFR mAbs, which display no cooperative effects.
  • Lysosomal EGFR degradation pathway induced by epitope-distinct antibody mixture may potentially lead to improved therapeutic outcome, and reduced resistance.

Technology's Essence

Prof. Yosef Yarden and his team demonstrated that a combination of novel antibodies that target distinct regions on the human EGF receptor resulted in its robust and synergistic down-regulation, leading to pronounced tumor growth inhibition. Furthermore, the combined mAbs induced lysosomal degradation of EGFR, while avoiding the recycling route. Such irreversible mode of EGFR degradation may potentially increase response rate or delay the onset of patient resistance.
Conversely, combining cetuximab and panitumumab, the mAbs routinely used to treat colorectal cancer patients, did not improve receptor degradation because they are both attracted to the same epitope on EGFR.

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